GB/T 20833.3-2018 English PDFUS$394.00 · In stock
Delivery: <= 4 days. True-PDF full-copy in English will be manually translated and delivered via email. GB/T 20833.3-2018: Rotating electrical machines -- Stator winding insulation of rotating electrical machines -- Part 3: Dielectric dissipation factor measurement Status: Valid
Basic dataStandard ID: GB/T 20833.3-2018 (GB/T20833.3-2018)Description (Translated English): Rotating electrical machines -- Stator winding insulation of rotating electrical machines -- Part 3: Dielectric dissipation factor measurement Sector / Industry: National Standard (Recommended) Classification of Chinese Standard: K20 Classification of International Standard: 29.160.01 Word Count Estimation: 21,290 Date of Issue: 2018-07-13 Date of Implementation: 2019-02-01 Quoted Standard: IEC 60060-1; IEC 60060-2 Adopted Standard: IEC 60034-27-3-2015, IDT Regulation (derived from): National Standard Announcement No. 10 of 2018 Issuing agency(ies): State Administration for Market Regulation, China National Standardization Administration Summary: This standard specifies the test procedure and test results evaluation guidelines for the measurement of the dielectric loss factor of the stator winding of a rotating electrical machine. It is applicable to rotating electric machines with rated anti-corona layer of 6 kV and above. This standard applies to single-formed winding stator bars and coils that have been installed/not installed in the core, and fully-formed stator windings in new or aged motors. This standard applies to all types of vacuum impregnated or multi-rubber bars, coils and complete windings. It is not suitable for single wire rods and coils or complete windings that are not impregnated. This standard gives the necessary conditions for measuring the dielectric loss factor of a single molded stator bar and coil of a rated voltage of 6 kV and above under power frequency AC voltage. GB/T 20833.3-2018: Rotating electrical machines -- Stator winding insulation of rotating electrical machines -- Part 3: Dielectric dissipation factor measurement---This is a DRAFT version for illustration, not a final translation. Full copy of true-PDF in English version (including equations, symbols, images, flow-chart, tables, and figures etc.) will be manually/carefully translated upon your order. Rotating electrical machines. Stator winding insulation of rotating electrical machines. Part 3. Dielectric dissipation factor measurement ICS 29.160.01 K20 National Standards of People's Republic of China Rotating electric machine rotating electric machine stator winding insulation Part 3. Dielectric loss factor measurement machines-Part 3. Dielectricdissipationfactormeasurement (IEC 60034-27-3.2015, Rotatingelectricalmachines- Part 27-3. Dielectricdissipationfactormeasurementonstatorwinding Insulationofrotatingelectricalmachines, IDT) Published on.2018-07-13 Implementation of.2019-02-01 State market supervision and administration China National Standardization Administration issued ContentForeword III Introduction IV 1 Scope 1 2 Normative references 1 3 Terms and Definitions 1 4 Principles and Measurement Techniques 2 5 Test procedure 7 6 test results 11 7 Test report 13 Appendix A (informative) Relationship between power factor and loss factor 16 Reference 17 Figure 1 Parallel circuit and vector illustration 2 Figure 2 series circuit and vector illustration 3 Figure 3 Schematic diagram of the relationship between test voltage and dielectric loss Figure 4 High-voltage Xilin bridge basic circuit 5 Figure 5 Transformer proportional arm bridge 6 Figure 6 Schematic diagram of the dielectric loss measurement system test device and current waveform Figure 7 Figure 7 Curve of tan δ and U/UN measured under 0.2UN voltage step Figure 8 Sample 9 with insulated gap protection electrode Figure 9 Protective electrode 10 on the end anti-halation layer Figure A.1 Vector Illustration 16 Table 1 Maximum dielectric loss factor of new bars and coils with protective electrodes of 21kV and below Table A.1 Comparison of dielectric loss factor tan δ and insulation power factor cos φ and the difference between the twoForewordGB/T 20833 "Rotor Motor Rotor Motor Stator Winding Insulation" is divided into four parts. --- Part 1. Offline partial discharge measurement; --- Part 2. Online partial discharge measurement; --- Part 3. Dielectric loss factor measurement; --- Part 4. Measurement of insulation resistance and polarization index. This part is the third part of GB/T 20833. This part is drafted in accordance with the rules given in GB/T 1.1-2009. This part uses the translation method equivalent to IEC 60034-27-3.2015 "Rotating electrical machines Part 27-3. Rotor stator windings Edge dielectric loss factor measurement. The documents of our country that have a consistent correspondence with the international documents referenced in this part are as follows. --- GB/T 16927.1-2011 High voltage test techniques - Part 1. General definitions and test requirements (IEC 60060-1. 2010, MOD); --- GB/T 16927.2-2013 High voltage test technology Part 2. Measurement systems (IEC 60060-2.2010, MOD). This section has made the following editorial changes. --- In line with the existing standard series, the name of this part is changed to "Spindle winding insulation of rotating electric machine rotating machine Part 3. Dielectric loss factor measurement. This part was proposed by China Electrical Equipment Industry Association. This part is under the jurisdiction of the National Rotating Electric Machine Standardization Technical Committee (SAC/TC26). This section drafted by. Shanghai Electric Apparatus Research Institute (Group) Co., Ltd., Shanghai Motor System Energy Conservation Engineering Technology Research Center Limited Company, Shandong Huali Electric Group Co., Ltd., Suzhou Jufeng Electric Insulation System Co., Ltd., Shandong Jinan Power Equipment Factory Company, Shanghai Dedriver Electric Co., Ltd., Jiangsu Global Special Motor Co., Ltd., Shanghai Electrical Equipment Testing Co., Ltd., Shanghai Electric Gas Group Shanghai Motor Factory Co., Ltd., Zhejiang Hulong Technology Co., Ltd., State Grid Shandong Electric Power Company Electric Power Research Institute, Xi'an Taifu Xima Motor Co., Ltd., Zhongche Yongji Motor Co., Ltd. The main drafters of this section. Zhao Chao, Zhang Shengde, Zhou Hongfa, Wang Qingdong, Xu Weihong, Lu Qijie, Chen Xiangen, Zhu Wenqin, Huang Huijie.IntroductionThis part of GB/T 20833 gives a measurement method for the stator winding bars, coils and complete winding dielectric loss factor of the formed winding. The dielectric loss factor is the dielectric loss that measures the insulation of the stator windings. Dielectric loss factor measurement is to evaluate new and old rotary motors A suitable method for the quality of the sub-winding insulation, which also helps to evaluate the insulation manufacturing consistency and dielectric properties. For old stator windings, medium The loss factor provides information about the insulation state. Compared to offline partial discharge measurements, dielectric loss factor measurements do not give information on the distribution of losses within the insulation, nor can they determine the insulation junction. Construct a weak point location. Measuring the dielectric loss factor over the entire voltage range will result in dielectric loss parameters of different characteristics that will be used for evaluation. Benchmark. In fact, empirical limits can be used to assess the quality of the stator winding insulation manufacturing process. Moreover, trend assessments can also provide information about the old Information on the process, necessary tests, and intervals during overhaul, such as functional assessment as part of the insulation structure or operation with a rotating motor or Diagnostic tests related to the repair period. However, these trend ratings cannot be used to predict the time of stator winding insulation failure. Rotating electric machine rotating electric machine stator winding insulation Part 3. Dielectric loss factor measurement1 ScopeThis part of GB/T 20833 specifies the test procedure and test results of the measurement of the dielectric loss factor of the stator winding of a rotating electrical machine. The guide is applicable to rotating electric machines with rated voltages of 6kV and above and with end anti-halation layer. This section applies to single molded winding stator bars and coils that are installed/not installed in the core, new or aged motors Completely formed stator windings. This section applies to all types of vacuum impregnated or multi-rubber rods, coils and complete windings, not for unimpregnated single bars and Coil or complete winding. This part gives the introduction of single-form stator bars and coils for motors with rated voltages of 6kV and above under power frequency AC voltage. Necessary conditions for mass loss factor measurement.2 Normative referencesThe following documents are indispensable for the application of this document. For dated references, only dated versions apply to this article. Pieces. For undated references, the latest edition (including all amendments) applies to this document. IEC 60060-1 High Voltage Test Technique Part 1. General Definitions and Test Requirements (High-voltagetesttechniques- Part 1. Generaldefinitionsandtestrequirements) IEC 60060-2 High Voltage Test Technique Part 2. Measurement Systems (High-voltagetesttechniques-Part 2. Measuringsystems)3 Terms and definitionsThe following terms and definitions apply to this document. 3.1 Rated voltage ratedvoltage UN For motors with specified operating conditions, the voltage or voltage range between the ends of the motor (also known as the line-to-line voltage) is usually determined by the manufacturer. Provisions. 3.2 Dielectric loss factor dielectricdissipationfactor Tanδ The tangent of the dielectric loss angle δ (the angle of the insulation power factor angle) at a predetermined temperature, frequency, voltage, or dielectric stress. Note 1. Sometimes other terms can be used to indicate this property, such as tan δ, loss angle, dielectric loss factor or dielectric power factor. Dielectric loss factor and power factor There is a difference in physicality between the number (the sine of the dielectric loss angle or the cosine of the power factor angle), but when the dielectric loss factor is less than 100×10-3 The two measurements are almost equal (see 4.1). Note 2. The dielectric loss factor tan δ in this part is expressed in absolute value, and can also be expressed as a percentage in other documents. ...... |
